Aurorasare createdwhen charged particles from the Sun interact with molecules and atoms in theatmosphere, creating a glow similar to neon lighting in terms of the scienceinvolved. The solar particles are funneled toward polarregions by Earth's strong magnetic field. Seen from space,the lights create bright rings around the poles. Each auroral oval is about1,860 miles (3,000 kilometers) in diameter.

The phenomenon on Mars is created in the same manner. ButMars has a much thinneratmosphere and only weakmagnetic fields, its internal dynamo having died out long ago. Remnants of martian magnetism exist in pocketsof rock, and that's where the new study focused.

"We have discovered the aurora exactly at the place ofmaximal magnetic field on the surface of Mars, as recorded previously by NASAMars Global Surveyor," said study leader Jean-Loup Bertaux of Service fromAeronomie at the CNRS in France. "It is small inhorizontal extent, about [19 miles] 30 kilometers."

Unlike Earth's mix of colors, which often bathethe sky in reds and greens, auroras on Mars would likely be faint and blueif seen by an astronaut on the surface, Bertaux told SPACE.com.

"He would see a pillar of light, as on Earth, butpossibly weaker," Bertaux said.

The observations were made with the European Space Agency'sorbiting Mars Express satellite. No conventional images were produced. Thefindings are detailed in the June 9 issue of the journal Nature.

Previous studies have found auroral displays on Saturn,Jupiter.On those planets, the process is affected by magnetic activity similar to theearthly variety.